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Parameter-based Engineering Changes for a Distributed Engineering Environment
Yang, Jeongsam,Goltz, Michael,Han, Soonhung Sage Publications 2004 Concurrent engineering Vol.12 No.4
<P>Engineering changes (ECs) in engineering and manufacturing companies usually involve a wide range of time-consuming information processes. Commercial product data management (PDM) systems offer capable management of data for a single company, but not for a distributed engineering environment. In this paper, we present a concept for improving the handling of ECs not only within the various disciplines of a company but also across collaborating enterprises. We propose a parameter-based approach that is able to propagate ECs and engineering tasks across company borders. In addition, we introduce a mechanism of workflow management based on engineering parameters, an application of ECs in a distributed environment and a concept for the architecture of a Web-based distributed workspace. We developed the workflow system as a prototype for the SIMNET 1 project to verify the parameter-based approach.</P>
양정삼(Jeongsam Yang),한순홍(Soonhung Han),최영(Young Chi),박상호(Sangha Park),이명우(Myungwoo Lee) 한국자동차공학회 2001 한국자동차공학회 춘 추계 학술대회 논문집 Vol.2001 No.5_2
To develop automobiles, engineers involved in a new car project team use various kinds of CAD systems according to specific requirements. For example, engineers in Hyundai Automotive are using Pro/Designer for the style design of a car, CATIA to design parts and assemblies, ANSYS for FEM analysis, and Pro/Engineer to design engines. Because they use different CAD systems, they have difficulty in cooperative design. Data, which contains errors, is transferred between CAD systems. It is difficult to find out such errors in a large CAD model. An evaluation method for CAD models has been developed. The developed diagnosis tool analyses a STEP or IGES file form a CAD system, and produces quantitative error report. It has been applied it to several actual car data.<br/> <br/>
Tip-tilt Simulation of a 3-DOF Secondary Mirror of Giant Magellan Telescope
Zhe Yang(양철),Jeongsam Yang(양정삼) (사)한국CDE학회 2012 한국 CAD/CAM 학회 학술발표회 논문집 Vol.2012 No.2
The object of this study is a 3-DOF secondary mirror of Giant Magellan Telescope, which is a 3-DOF parallel manipulator. In order to analyze the kinematic characteristics of this mechanism, the forward kinematic equation and inverse kinematic equation are calculated respectively. To verify the performance of the secondary mirror, a series of experiments are carried out, and some relative experimental data about tip-tilt movement is obtained. To observe the tip-tilt movement of 3-DOF secondary mirror using a computer program, instead of conducting real experiment, a dynamic simulation module and a customizable simulation module are developed. Through comparing these two simulation results, the tip-tilt characteristic of 3-DOF secondary mirror can be visualized and supervised obviously, it also lays a solid foundation for kinematic calibration of this mechanism.
양정삼(Jeongsam Yang),한순흥(Soonhung Han),강혜정(Hyejeong Kang),김준기(Junki Kim) 한국자동차공학회 2005 한국 자동차공학회논문집 Vol.13 No.1
Digital representations of products and parts have largely replaced physical drawings as the form in which product data are stored, analyzed, and communicated among the people contributing to the design of an automobile. Many individuals and companies participate in the design of an increasingly complex automobile; hence, the design process depends critically on team members' ability to share information about essential design elements. These trends have elevated the importance of the quality of product data and its efficient exchange. In this paper, we show state-of-the-art on Product Data Quality(PDQ), and activities of PDQ assurance. And we propose a novel design history-based approach for diagnosis and healing of a CAD model.
OpenCASCAD를 이용한 CAD 모델의 오류 진단 시스템의 개발
양정삼(Jeongsam Yang),한순흥(Soonhung Han),최영(Yong Choi),박상호(Sangho Park) 한국자동차공학회 2002 한국 자동차공학회논문집 Vol.10 No.3
Automotive engineers involved in a new car project use various CAD systems that are chosen based on work requirements. For example, engineers in Hyundai Motors are using Pro/Designer and Alias for the style design, but they use CATIA to design parts and assemblies, ANSYS for FEM analysis, and Pro/Engineer to design engines. Because they use different CAD systems, they have difficulties in collaborative design. Data, which contains errors, is transferred between CAD systems. It is difficult to find out such errors in a large CAD model. An evaluation method for CAD models has been developed in this study. This diagnosis tool analyses a STEP or an IGES file generated from a CAD system, and produces a quantitative error report. The tool has been tested with actual data sets. This paper proposes an algorithm that produces mathematical error values of entities of IGES models that have geometrical data, and entities of STEP models that have topological data, and inspects every part of a model. To develop this system, we have used the OpenCASCADE kernel, which is an open source kernel developed by Matra Datavision of France.